CN112462167B

CN112462167B - Power equipment data acquisition system

Info

Publication number: CN112462167B
Application number: CN202011217889.0A
Authority: CN
Inventors: 杨艳芳; 刘佳易; 王晖南; 弓俊才; 杨帅; 陈晓芳
Original assignee: Marketing Service Center of State Grid Shanxi Electric Power Co Ltd
Current assignee: Marketing Service Center of State Grid Shanxi Electric Power Co Ltd
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2024-02-13
Anticipated expiration: 2040-11-04
Also published as: CN112462167A

Abstract

The invention provides a data acquisition system of electric equipment, which belongs to the technical field of electric data acquisition and comprises a vehicle body, a conveying mechanism, an acquisition mechanism and a control mechanism, wherein the acquisition height of the acquisition mechanism can be adjusted by moving the conveying mechanism along the vertical direction of the vehicle body, the acquisition height of the acquisition mechanism can also be adjusted by moving the vehicle body, the vehicle body can be suitable for the data acquisition of the electric equipment at different area positions by adjusting the length and the width, a plurality of acquisition equipment are arranged in the acquisition mechanism, different acquisition equipment can be close to the electric equipment and can acquire data of the electric equipment by rotating the acquisition mechanism, and the conveying height of the acquisition mechanism and the rotation of the acquisition mechanism relative to the conveying mechanism can be controlled by the control mechanism. The data acquisition system for the power equipment has the technical effects of convenience in data acquisition operation for the power equipment, accuracy in data acquisition and no increase in labor intensity.

Description

Power equipment data acquisition system

Technical Field

The invention belongs to the technical field of power data acquisition, and particularly relates to a power equipment data acquisition system.

Background

Along with the great development of national economy and the progress of science and technology, along with the modern and intelligent construction of a power grid, more and more power equipment is put into operation. Some of these power devices require frequent data collection to ascertain whether the operating parameters of the power device are within design limits or meet the parameters specified by the operating specifications. Some power equipment is placed at a higher place, such as a telegraph pole or a power building wall, and then the data is acquired by manually climbing a ladder to the power equipment and collecting the data of the power equipment. When data are acquired, acquisition personnel need to carry more acquisition equipment to acquire, acquire such as current monitoring, voltage monitoring, energy efficiency monitoring, transformer oil temperature monitoring, smog monitoring and other data acquisition, carry these acquisition equipment to acquire work, can cause data acquisition operation inconvenient, still can increase staff intensity of labour.

Disclosure of Invention

The invention aims to provide a data acquisition system of power equipment, which aims to solve the technical problems of inconvenient operation and high labor intensity of workers during data acquisition operation of the power equipment.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a power equipment data acquisition system, including automobile body, transport mechanism, collection mechanism and control mechanism, automobile body length and width are adjustable, the automobile body is portable; the conveying mechanism is arranged on the vehicle body, can be conveyed in the vertical direction of the vehicle body, and can be adjusted in conveying height on the vehicle body; the collecting mechanism is arranged on the conveying mechanism, a plurality of collecting devices are arranged on the outer circumference of the collecting mechanism, the collecting mechanism can rotate around the length direction of the vehicle body relative to the conveying mechanism, the collecting mechanism is conveyed to be lifted to a position close to the power device by means of the conveying mechanism, and different collecting devices are close to the power device and collect different data after rotating the collecting mechanism; the control mechanism is used for controlling the conveying height of the conveying mechanism to the collecting mechanism and the rotation of the collecting mechanism relative to the conveying mechanism.

As another embodiment of the application, the conveying mechanism comprises a driver, a conveying assembly and an ejector rod, wherein the driver is arranged on the vehicle body and is used for driving and being controlled by the control mechanism; the conveying component is arranged on the vehicle body along the height direction of the vehicle body and is connected with the power output end of the driver, and the conveying component can convey in the height direction of the vehicle body and is controlled by the driver; the ejector rod is arranged on the vehicle body in a sliding manner, one end of the ejector rod is connected with the conveying assembly, the ejector rod can stretch in the horizontal direction and can also lift along the height direction of the vehicle body by means of the conveying assembly, the collecting mechanism is arranged on the ejector end of the ejector rod, and the height and the horizontal position of the collecting mechanism can be adjusted by means of the conveying assembly and the ejector rod.

As another embodiment of the application, a rotary table is fixedly arranged at the ejection end of the ejector rod, the rotation plane of the rotary table is in the vertical direction of the vehicle body, the collecting mechanism is arranged at the rotation end of the rotary table, the rotation of the collecting mechanism is controlled by the rotary table, and the rotary table is controlled by the control mechanism.

As another embodiment of the application, the collecting mechanism comprises a shell, a rotating assembly and a penetrating assembly, wherein the shell is of a horizontal cylindrical structure, a plurality of through holes are uniformly distributed on the outer circumference of the shell, one end of the shell is rotationally connected with the conveying mechanism, the interior of the shell is hollow, the rotating plane of the shell is arranged in the height direction of the vehicle body, and the shell can be limited after rotating; the rotating assembly is coaxially arranged in the shell, two ends of the rotating assembly are respectively connected with two ends of the inner side of the shell in a rotating way, a plurality of collecting devices are uniformly distributed on the outer circumference of the rotating assembly, after the rotating assembly rotates, different collecting devices can be made to approach to the power device, different collecting devices can collect different data, and the rotating assembly can be limited relative to the shell; the number of the penetrating assemblies is multiple, the penetrating assemblies are all arranged on the circumferential surface of the shell, the through holes are covered and buckled, after the rotating assemblies rotate and are limited, the data acquisition ends of the acquisition equipment radially penetrate through the through holes along the rotating assemblies and the penetrating assemblies, then the data acquisition is carried out on the power equipment, and different acquisition equipment can penetrate through the through holes at different positions or the penetrating assemblies.

As another embodiment of the application, the shell is provided with a limiting component for limiting the rotation of the rotating component relative to the shell, and the limiting component is a ferromagnetic component.

As another embodiment of the application, the rotating assembly comprises a rotating shaft, a sleeve and a telescopic rod, wherein two ends of the rotating shaft are respectively connected with two ends of the inner side of the shell in a rotating way; the sleeve is detachably sleeved on the rotating shaft in a sliding manner, the sleeve can slide along the length direction of the rotating shaft, the sliding position can be locked, a plurality of acquisition devices are uniformly distributed on the outer circumference of the sleeve, the data acquisition end of each acquisition device can pass through the corresponding passing component after being aligned with the corresponding passing component, and the sleeve can slide on the rotating shaft to adjust the alignment position of the corresponding acquisition device and the corresponding passing component in the horizontal direction; the telescopic links are a plurality of, the equipartition is in on the sleeve outer circumference, all can follow the sleeve is radial flexible upward, and acquisition device's data acquisition end is located on the telescopic link free end, data acquisition end is with the help of the flexible of telescopic link can pass the subassembly and can carry out data acquisition to power equipment.

As another embodiment of the application, the penetrating component comprises two supporting rods, a transverse plate and springs, wherein the two supporting rods are vertically fixed on the outer wall of the shell and positioned on two sides of the through hole respectively, the length direction of each supporting rod is radially arranged along the shell, and the supporting rods are telescopic; the two transverse plates are axially arranged along the shell in the length direction, one ends of the two transverse plates are respectively hinged with the upper ends of the two supporting rods, the other ends of the two transverse plates are free ends and face the through hole side, and the free ends of the two transverse plates can be mutually abutted and used for sealing the through hole after being abutted; the two ends of the spring are respectively connected with the supporting rod and the transverse plate, and are used for pulling the transverse plate to rotate towards the side close to the through hole, enabling the two transverse plates to cover the through hole, enabling the data acquisition end of the acquisition equipment to penetrate through the through hole and overcome the elastic force of the spring to push the transverse plate to rotate and then extend out of the through hole.

As another embodiment of the application, the vehicle body comprises a frame formed by mutually connecting and combining a plurality of upright posts and a plurality of cross beams, a braking travelling wheel is arranged at the bottom end of the frame, a plurality of cross beams are telescopic members, the length or the width of the vehicle body is adjusted by means of the expansion and contraction of the cross beams, and the conveying mechanism is arranged on the upright posts.

As another embodiment of the application, the limiting component comprises a rotating rod, a first magnetic block, a rotating disc and a second magnetic block, one end of the rotating rod is fixedly arranged on the rotating component, the other end of the rotating rod is a free end, and the length direction of the rotating rod is in the radial direction of the rotating component; the first magnetic block is arranged at the free end of the rotating rod and can be magnetically attracted; the rotary disc is rotatably arranged on the outer end surface of the shell and is close to the rotary rod, and is coaxially arranged with the shell, and the rotary disc can be limited; the second magnetic block can be detachably arranged on the rotary table, can limit the rotation of the rotating assembly after being mutually magnetically attracted with the first magnetic block, can rotate along with the rotation of the rotary table, and can attract the first magnetic block and rotate by the rotary rod after rotating the rotary table, the collecting equipment on the rotating assembly can be aligned with the passing assembly at different positions, and the data collecting end can pass through the passing assembly to collect data of the power equipment.

As another embodiment of the present application, the cross beam includes a first rod, a second rod and a telescopic cylinder, where one end of the first rod is fixed to one cross beam, the other end of the first rod is a free end and faces the inner side of the vehicle body, a first blind hole is provided at the free end along the horizontal direction, and a first internal thread is provided in the first blind hole; the horizontal position of the second rod, one end of the second rod is fixedly connected with the other adjacent cross beam, the other end of the second rod is a free end and faces the inner side of the vehicle body, a second blind hole is formed in the free end along the horizontal direction, a second internal thread is arranged in the second blind hole, and the rotation direction of the second internal thread is opposite to that of the first internal thread; the telescopic cylinder is characterized in that external threads with opposite screwing directions are respectively arranged at two ends of the telescopic cylinder, the two ends of the telescopic cylinder are respectively in threaded connection with the first internal threads and the second internal threads, and the telescopic cylinder is used for adjusting the distance between the first rod and the second rod or adjusting the length or the width of the vehicle body through screwing.

The data acquisition system of the power equipment has the beneficial effects that: compared with the prior art, the power equipment data acquisition system has the advantages that the acquisition mechanism is arranged on the transmission mechanism, the acquisition height of the acquisition mechanism can be adjusted by moving the transmission mechanism along the vertical direction of the vehicle body, the adjustment of the length and the width of the vehicle body can be adjusted by moving the vehicle body, the data acquisition of the power equipment at different area positions is suitable for, the acquisition mechanism is internally provided with a plurality of acquisition equipment, the different acquisition equipment can be close to the power equipment and can carry out data acquisition on the power equipment by rotating the acquisition mechanism, the transmission height of the transmission mechanism to the acquisition mechanism and the rotation of the acquisition mechanism relative to the transmission mechanism can be controlled by the control mechanism, the technical problems that the operation is inconvenient for workers to carry out data acquisition operation on the power equipment and the labor intensity is high are solved, the power equipment data acquisition operation is convenient, the data acquisition is accurate, and the technical effect of labor intensity cannot be increased are achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a data acquisition system for electric power equipment according to an embodiment of the present invention (a rectangular dashed box in the middle of the figure represents electric power equipment for data to be acquired);

fig. 2 is a schematic structural diagram of an acquisition mechanism of a data acquisition system of an electrical device according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view at A-A in FIG. 2;

FIG. 4 is a cross-sectional view at B-B in FIG. 2;

fig. 5 is an enlarged view of the structure at C in fig. 3.

In the figure: 1. a vehicle body; 11. a column; 12. a cross beam; 121. a first lever; 122. a second lever; 123. a telescopic cylinder; 13. a walking wheel;

2. a conveying mechanism; 21. a driver; 22. a transfer assembly; 221. a driving wheel; 222. driven wheel; 223. a conveyor chain; 23. ejector rods;

3. a collection mechanism; 31. a housing; 311. a through hole; 32. a rotating assembly; 321. a rotating shaft; 322. a sleeve; 323. a telescopic rod; 33. passing through the assembly; 331. a support rod; 332. a cross plate; 333. a spring; 34. a limit component; 341. a rotating rod; 342. a first magnetic block; 343. a turntable; 344. a second magnetic block;

4. a control mechanism;

5. a collection device;

6. a rotary table;

7. and (5) climbing a ladder.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, a description will be given of a data acquisition system for electrical equipment according to the present invention. The power equipment data acquisition system comprises a vehicle body 1, a conveying mechanism 2, an acquisition mechanism 3 and a control mechanism 4, wherein the length and the width of the vehicle body 1 are adjustable, and the vehicle body 1 can move; the conveying mechanism 2 is arranged on the vehicle body 1, is arranged on the vehicle body 1 and can convey the vehicle body 1 in the vertical direction, and the conveying height of the conveying mechanism 2 on the vehicle body 1 can be adjusted; the acquisition mechanism 3 is arranged on the conveying mechanism 2, a plurality of acquisition devices 5 are arranged on the outer circumference of the acquisition mechanism 3, the acquisition mechanism 3 can rotate around the length direction of the vehicle body 1 relative to the conveying mechanism 2, the acquisition mechanism 3 is conveyed to be lifted to a position close to the power devices by means of the conveying mechanism 2, and different acquisition devices 5 are close to the power devices and acquire different data after the acquisition mechanism 3 is rotated; the control mechanism 4 is used for controlling the conveying height of the conveying mechanism 2 to the collecting mechanism 3 and the rotation of the collecting mechanism 3 relative to the conveying mechanism 2.

Compared with the prior art, the power equipment data acquisition system provided by the invention has the advantages that the acquisition mechanism 3 is arranged on the transmission mechanism 2, the acquisition height of the acquisition mechanism 3 can be adjusted by moving the transmission mechanism 2 along the vertical direction of the vehicle body 1, the vehicle body 1 can be adjusted by moving the vehicle body 1, the adjustment of the length and the width of the vehicle body can be suitable for the data acquisition of power equipment at different area positions, the acquisition mechanism 3 is internally provided with the plurality of acquisition equipment 5, the different acquisition equipment 5 can be close to the power equipment and can carry out the data acquisition on the power equipment by rotating the acquisition mechanism 3, the transmission height of the transmission mechanism 3 by the transmission mechanism 2 and the rotation of the acquisition mechanism 3 relative to the transmission mechanism 2 can be controlled by the control mechanism 4, the technical problems of inconvenient operation and high labor intensity of workers in the data acquisition operation of the power equipment are solved, the data acquisition operation of the power equipment is convenient, the data acquisition is accurate, and the technical effect of labor intensity cannot be increased.

The two sets of conveying mechanisms 2 are respectively and oppositely arranged on the vehicle body 1, the collecting mechanism 3 is clamped between the two sets of conveying mechanisms 2, the conveying actions of the two sets of conveying mechanisms 2 are simultaneous, and the conveying height and the conveying position can be adjusted and controlled through the control mechanism 4. The vehicle body 1 and the conveying mechanism 2 are both made of insulating materials. The vehicle body 1 is provided with a ladder 7, and when the ladder 7 is required to be used, the vehicle body 1 is detached and dropped, and then supported on the ground for use.

The lifting of the collection mechanism 3 is controlled through the conveying mechanism 2, the collection mechanism 3 is close to the power equipment, then the control mechanism 4 is used for controlling the collection mechanism 3 to rotate, a plurality of collection devices 5 on the outer circumference are respectively close to the power equipment, data collection can be carried out on the power equipment, the data collection operation is more convenient after the data collection is close to, and the collection efficiency can be improved.

Specifically, the control mechanism 4 comprises a PLC controller, a plurality of control buttons and a plurality of control circuits, the control buttons can control the transmission of the transmission mechanism 2 and the rotation of the acquisition mechanism 3 through the connection of the control circuits in the control mechanism 4, so that the acquisition equipment 5 can be lifted to a position close to the power equipment, then the power equipment is conveniently used for acquiring data, and when another acquisition equipment 5 is used, the acquisition mechanism 3 is rotated again; after the data acquisition is completed, the conveying mechanism 2 is controlled by the control mechanism 4 to enable the conveying and acquisition mechanism 3 to descend, the length or the width of the vehicle body 1 is adjusted, and the adjusted vehicle body 1 occupies a smaller area, so that the vehicle body can be conveniently carried and loaded. The connection of the internal control circuits of the control means 4 is already known and is therefore not stated in the present invention.

The collection equipment 5 includes voltage monitor, current monitor, temperature monitor etc. with these collection equipment 5 setting up in collection mechanism 3 outer circumference on, can be through rotatory collection mechanism 3, but above collection equipment 5 is close power equipment, then the manual work is with the monitoring head and the power equipment interconnect of collection equipment 5, carries out data acquisition. The invention saves the problems of inconvenient collection and low efficiency of manual carrying and collecting equipment 5. However, after the acquisition device 5 is brought close to the power device, it is also necessary to manually connect the monitoring head to the power device at this time.

As a specific embodiment of the data acquisition system for electric equipment provided by the invention, referring to fig. 1 to 5, a conveying mechanism 2 includes a driver 21, a conveying assembly 22 and an ejector rod 23, wherein the driver 21 is arranged on a vehicle body 1 and is used for driving and being controlled by a control mechanism 4; the conveying component 22 is arranged on the vehicle body 1 along the height direction of the vehicle body 1, is connected with the power output end of the driver 21, and can convey the conveying component 22 along the height direction of the vehicle body 1 and is controlled by the driver 21; the ejector rod 23 is slidably arranged on the vehicle body 1, one end of the ejector rod 23 is connected with the conveying component 22, the ejector rod 23 can stretch in the horizontal direction, the ejector rod can also be lifted along the height direction of the vehicle body 1 by means of the conveying component 22, the collecting mechanism 3 is arranged on the ejector end of the ejector rod 23, and the height and the horizontal position of the collecting mechanism 3 can be adjusted by means of the conveying component 22 and the ejector rod 23.

Specifically, the driver 21 includes a driving motor and a decelerator connected to a driving power output end, the power output end of the decelerator is used for connecting the transmission assembly 22, the transmission assembly 22 includes a driving wheel 221, a driven wheel 222 and a transmission chain 223, the driving wheel 221 and the driven wheel 222 are both rotatably disposed on the vehicle body 1, the driving wheel 221 is connected to the output end of the decelerator, the transmission chain 223 is in a closed shape, and is wound between the driving wheel 221 and the driven wheel 222, and the transmission chain 223 can be driven to transmit in the height direction of the vehicle body 1 by the rotation of the driving wheel 221. One end of the ejector rod 23 is fixed on the conveying chain 223, the other end is a free end, the ejector rod 23 is horizontally arranged, and the acquisition mechanism 3 is positioned at the free end of the ejector rod 23. When the conveying mechanism 2 is two sets, then the collection mechanism 3 is located on the ejection ends of two ejector rods 23, when the length or the width of the vehicle body 1 is adjusted, then the ejection length of the two ejector rods 23 is also adjusted, so as to be suitable for the adjustment of the vehicle body 1, and the data collection position of the collection mechanism 3 to the power equipment in the horizontal direction can also be adjusted through the horizontal ejection of the two ejector rods 23.

As a specific embodiment of the data collection system for electrical equipment provided by the invention, referring to fig. 1 to 5, a rotary table 6 is fixedly arranged on the pushing end of the ejector rod 23, the rotation plane of the rotary table 6 is in the vertical direction of the vehicle body 1, the collection mechanism 3 is arranged on the rotation end of the rotary table 6, the rotation of the collection mechanism 3 is controlled by the rotary table 6, and the rotary table 6 is controlled by the control mechanism 4. The rotary table 6 is arranged coaxially with the collecting mechanism 3, i.e. on the same straight line in the horizontal direction.

Specifically, revolving stage 6 is electric revolving stage 6, and rotation angle is adjustable and can brake, through the rotation angle that can adjust collection mechanism 3 or control collection device 5 and power equipment's the degree of being close on the collection mechanism 3, makes things convenient for collection device 5 to carry out data acquisition.

As a specific embodiment of the data acquisition system of the electrical equipment provided by the invention, referring to fig. 1 to 5, the acquisition mechanism 3 comprises a shell 31, a rotating assembly 32 and a penetrating assembly 33, wherein the shell 31 is in a horizontal cylindrical structure, a plurality of through holes 311 are uniformly distributed on the outer circumference of the shell 31, one end is rotationally connected with the transmission mechanism 2, the interior of the shell 31 is hollow, the rotation plane of the shell 31 is in the height direction of the vehicle body 1, and the shell 31 can be limited after rotating; the rotating assembly 32 is coaxially arranged in the shell 31, two ends of the rotating assembly are respectively and rotatably connected with two ends of the inner side of the shell 31, the plurality of collecting devices 5 are uniformly distributed on the outer circumference of the rotating assembly 32, after the rotating assembly 32 rotates, different collecting devices 5 can approach to the power equipment, different collecting devices 5 collect different data, and the rotating assembly 32 can be limited relative to the shell 31; the plurality of penetrating assemblies 33 are arranged on the circumferential surface of the shell 31 and cover the through holes 311, after the rotating assembly 32 rotates and limits, the data acquisition ends of the acquisition equipment 5 radially penetrate through the through holes 311 and penetrate through the assemblies 33 along the rotating assembly 32, then data acquisition is carried out on the power equipment, and different acquisition equipment 5 can penetrate through the through holes 311 at different positions or penetrate through the assemblies 33. The casing 31 is made of insulating materials, the casing 31 can rotate relative to the conveying assembly 22, the rotating assembly 32 can rotate relative to the casing 31, the rotation of the casing 31 can be controlled through the rotating table 6, the collecting equipment 5 is arranged on the rotating assembly 32, and the rotating assembly 32 can be rotated to enable different collecting equipment 5 to rotate and approach to power equipment to be subjected to data collection, so that collection is facilitated. When a certain acquisition device 5 is used, the data acquisition end is passed through the through hole 311 and through the assembly 33, and when a certain acquisition device 5 is not needed, the operation is not performed.

The data acquisition end is the monitoring head or the monitoring end mentioned above, and can realize data acquisition through being connected with the power equipment.

As a specific embodiment of the data acquisition system for electrical equipment provided by the present invention, referring to fig. 1 to 5, a limiting assembly 34 for limiting rotation of the rotating assembly 32 relative to the housing 31 is disposed on the housing 31, and the limiting assembly 34 is a ferromagnetic member. The rotation of the rotating component 32 can be controlled through the limiting component 34, and the limiting component 34 can control the rotation angle or the number of turns of the rotating component 32, so that different collecting devices 5 can be adjusted to be close to the power equipment. The limiting assembly 34 brakes the rotating assembly 32 to limit after magnetism is generated, otherwise, the rotating assembly 32 is not limited after magnetism is not generated.

As a specific embodiment of the data acquisition system for electrical equipment provided by the present invention, referring to fig. 1 to 5, the rotating assembly 32 includes a rotating shaft 321, a sleeve 322 and a telescopic rod 323, wherein two ends of the rotating shaft 321 are respectively connected to two ends of the inner side of the housing 31 in a rotating manner; the sleeve 322 is detachably sleeved on the rotating shaft 321 in a sliding manner, the sliding position can be locked along the length direction of the rotating shaft 321, a plurality of acquisition devices 5 are uniformly distributed on the outer circumference of the sleeve 322, the data acquisition end of the acquisition device 5 can pass through the passing component 33 after being aligned with the passing component 33, and the sliding sleeve 322 slides on the rotating shaft 321 to be used for adjusting the alignment position of the acquisition device 5 and the passing component 33 in the horizontal direction; the telescopic links 323 are a plurality of, the equipartition is on sleeve 322 outer circumference, all can radially stretch out and draw back along sleeve 322, and the data acquisition end of acquisition equipment 5 is located on the telescopic link 323 free end, and the data acquisition end can pass subassembly 33 and can carry out data acquisition to power equipment with the help of the flexible of telescopic link 323. The pushing of the telescopic rod 323 can enable the data acquisition end to pass through the assembly 33 and extend out of the shell 31, and acquire data of the power equipment, and when one of the acquisition equipment 5 is not needed, the telescopic rod 323 corresponding to the acquisition equipment 5 can not be operated.

One collection device 5 (data collection end) corresponds to one telescopic rod 323, and one telescopic rod 323 corresponds to one penetrating assembly 33 and one through hole 311. The pushing of the telescopic rod 323 is controlled by the control mechanism 4. Six telescopic rods 323 are arranged on one sleeve 322, two sleeves 322 are arranged on the rotating shaft 321, and a third sleeve 322 can be arranged according to actual requirements, so that the number of the acquisition devices 5 is large, and data acquisition is convenient.

As a specific embodiment of the data acquisition system for electric equipment provided by the invention, referring to fig. 1 to 5, the penetrating component 33 includes two supporting rods 331, a transverse plate 332 and springs 333, the two supporting rods 331 are vertically fixed on the outer wall of the casing 31 and are located at two sides of the through hole 311, the length direction of the supporting rods 331 is radially arranged along the casing 31, and the supporting rods 331 are telescopic; the two transverse plates 332 are axially arranged along the shell 31 in the length direction, one ends of the two transverse plates 332 are respectively hinged with the upper ends of the two support rods 331, the other ends of the two transverse plates 332 are free ends and face the through hole 311 side, and the free ends of the two transverse plates 332 can be mutually abutted and used for sealing the through hole 311 after being abutted; the two ends of the spring 333 are respectively connected with the support rod 331 and the transverse plate 332, and are used for pulling the transverse plate 332 to rotate towards the side close to the through hole 311, enabling the two transverse plates 332 to cover the through hole 311, enabling the data acquisition end of the acquisition device 5 to penetrate through the through hole 311 and push the transverse plate 332 to rotate against the elastic force of the spring 333, and then extending out of the through hole 311. When the cross plate 332 is pushed to rotate when the cross plate is pulled out of the housing 31 through the through hole 311 from the inside of the housing 31, the cross plate can be pulled out. The arrangement through the assembly 33 is also to prevent other objects from falling into the housing 31 through the through hole 311, so as to avoid affecting the data acquisition of the acquisition device 5.

As a specific embodiment of the data acquisition system for electric equipment provided by the invention, referring to fig. 1 to 5, a vehicle body 1 comprises a frame formed by mutually connecting and combining a plurality of upright posts 11 and a plurality of cross beams 12, a braking travelling wheel 13 is arranged at the bottom end of the frame, the plurality of cross beams 12 are telescopic members, the length or the width of the vehicle body 1 is adjusted by means of the telescopic members of the cross beams 12, and a conveying mechanism 2 is arranged on the upright posts 11. The combined connection form of the frame belongs to the processing and manufacturing mode in the prior art, namely a plurality of cross beams 12 are transversely placed, a plurality of upright posts 11 are vertically placed, and the cross beams 12 are mutually connected with the upright posts 11. The upright post 11 is of a fixed rod body structure, the cross beam 12 is a telescopic member, and the length or width of the vehicle body 1 can be adjusted by adjusting the cross beam 12.

As a specific embodiment of the data acquisition system for electrical equipment provided by the invention, referring to fig. 1 to 5, the limit assembly 34 includes a rotating rod 341, a first magnetic block 342, a rotating disc 343 and a second magnetic block 344, one end of the rotating rod 341 is fixedly arranged on the rotating assembly 32, the other end is a free end, and the length direction of the rotating rod 341 is in the radial direction of the rotating assembly 32; the first magnetic block 342 is arranged on the free end of the rotating rod 341 and can be magnetically attracted; the turntable 343 is rotatably arranged on the outer end surface of the shell 31 and is close to the rotating rod 341, and is coaxially arranged with the shell 31, and the turntable 343 can be limited; the second magnetic block 344 is detachably arranged on the turntable 343, and can limit the rotation assembly 32 to rotate after being magnetically attracted with the first magnetic block 342, and can rotate along with the rotation of the turntable 343, the second magnetic block 344 attracts the first magnetic block 342 after rotating the turntable 343, the rotating rod 341 rotates, the collection device 5 arranged on the rotation assembly 32 can align with the passing assembly 33 at different positions, and the data collection end can pass through the passing assembly 33 to collect the data of the power equipment. The turntable 343 is coaxially connected to the housing 31 at the side end of the housing 31 through a radial bearing, the positive and negative poles of the first magnetic block 342 and the second magnetic block 344 are mutually attracted, the turntable 343 is rotated to rotate the second magnetic block 344, and then the rotating assembly 32 is rotated along with the rotation of the turntable 343 after the first magnetic block 342 and the second magnetic block 344 are mutually attracted, so that the rotation angle of the rotating assembly 32 or the alignment degree of the power equipment and the passing assembly 33 can be adjusted. When the first magnetic block 342 and the second magnetic block 344 are not attracted, the rotating assembly 32 is released, and the collectable device 5 passes through the magnetic attraction again corresponding to the different passing assemblies 33, so as to limit the rotating assembly 32. The second magnetic block 344 is removed from the turntable 343 without generating magnetic attraction. Placed on the turntable 343, the first magnetic block 342 and the second magnetic block 344 are closer to each other, and the housing 31 is made of insulating material, so that mutual magnetic attraction can be generated. A circular scale or rotation angle reference line is provided on the side end surface of the housing 31, and when the turntable 343 is rotated, it can be referred to know how much the second magnetic block 344 is rotated, and the telescopic rod 323 of the rotating assembly 32 is aligned with the passing assembly 33, so that the data collecting end of the collecting device 5 can protrude through the passing assembly 33.

As a specific embodiment of the data acquisition system for electric equipment provided by the invention, referring to fig. 1 to 5, the cross beam 12 includes a first rod 121, a second rod 122 and a telescopic cylinder 123, wherein one end of the first rod 121 is fixedly connected with one cross beam 12, the other end is a free end and faces the inner side of the vehicle body 1, a first blind hole is arranged at the free end along the horizontal direction, and a first internal thread is arranged in the first blind hole; the second rod 122 is horizontally positioned, one end of the second rod is fixedly connected with the adjacent other cross beam 12, the other end of the second rod is a free end and faces the inner side of the vehicle body 1, a second blind hole is formed in the free end along the horizontal direction, a second internal thread is formed in the second blind hole, and the rotation direction of the second internal thread is opposite to that of the first internal thread; the two ends of the telescopic cylinder 123 are respectively provided with external threads with opposite screwing directions, and the two ends are respectively in threaded connection with the first internal threads and the second internal threads, and the telescopic cylinder 123 is used for adjusting the distance between the first rod 121 and the second rod 122 or adjusting the length or the width of the vehicle body 1 by screwing. The telescopic cylinder 123 is adjusted to adjust the whole length or width of the vehicle body 1, and the ejection lengths of the two ejector rods 23 are required to be adjusted at the same time of adjustment so as to adapt to the change of the vehicle body 1. The forward rotation and the reverse rotation of the telescopic cylinder 123 are convenient to adjust, so that the data acquisition of the acquisition mechanism 3 is supported in different spaces of the vehicle body 1, especially in some narrow spaces, the length or the width of the vehicle body 1 is more required to be adjusted, otherwise, the vehicle body 1 cannot be placed in the space, and the data acquisition operation cannot be performed.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. The utility model provides an electrical equipment data acquisition system which characterized in that includes:

the length and the width of the vehicle body are adjustable, and the vehicle body is movable;

the conveying mechanism is arranged on the vehicle body, is arranged on the vehicle body and can convey the vehicle body in the vertical direction, and the conveying height of the conveying mechanism on the vehicle body can be adjusted;

the collecting mechanism is arranged on the conveying mechanism, a plurality of collecting devices are arranged on the outer circumference of the collecting mechanism, the collecting mechanism can rotate around the length direction of the vehicle body relative to the conveying mechanism, the collecting mechanism is conveyed to be lifted to a position close to the power device by means of the conveying mechanism, and different collecting devices are close to the power device and collect different data after rotating the collecting mechanism; and

the control mechanism is used for controlling the conveying height of the conveying mechanism to the collecting mechanism and the rotation of the collecting mechanism relative to the conveying mechanism;

the collection mechanism comprises:

the shell is of a horizontal cylindrical structure, a plurality of through holes are uniformly distributed on the outer circumference of the shell, one end of the shell is rotationally connected with the conveying mechanism, the interior of the shell is hollow, the rotating plane of the shell is arranged in the height direction of the vehicle body, and the shell can be limited after rotating;

the rotating assembly is coaxially arranged in the shell, two ends of the rotating assembly are respectively connected with two ends of the inner side of the shell in a rotating way, a plurality of collecting devices are uniformly distributed on the outer circumference of the rotating assembly, after the rotating assembly rotates, different collecting devices can approach to the power device, different collecting devices can collect different data, and the rotating assembly can be limited relative to the shell; and

the rotating assembly is rotated and limited, the data acquisition end of the acquisition equipment radially penetrates through the through hole and the penetrating assembly, then data acquisition is carried out on the power equipment, and different acquisition equipment can penetrate through the through holes at different positions and the penetrating assembly.

2. The electrical device data acquisition system of claim 1, wherein the transfer mechanism comprises:

the driver is arranged on the vehicle body and used for driving and being controlled by the control mechanism;

the conveying component is arranged on the vehicle body along the height direction of the vehicle body, is connected with the power output end of the driver, and can convey in the height direction of the vehicle body and is controlled by the driver; and

the ejector rod is arranged on the vehicle body in a sliding manner, one end of the ejector rod is connected with the conveying assembly, the ejector rod can stretch in the horizontal direction and can also lift along the height direction of the vehicle body by means of the conveying assembly, the collecting mechanism is arranged on the ejector end of the ejector rod, and the height and the horizontal position of the collecting mechanism can be adjusted by means of the conveying assembly and the ejector rod.

3. The power equipment data acquisition system according to claim 2, wherein a rotary table is fixedly arranged on the ejection end of the ejector rod, the rotation plane of the rotary table is in the vertical direction of the vehicle body, the acquisition mechanism is arranged on the rotation end of the rotary table, the rotation of the acquisition mechanism is controlled by the rotary table, and the rotary table is controlled by the control mechanism.

4. The electrical equipment data acquisition system as recited in claim 1, wherein the housing is provided with a limiting assembly for limiting rotation of the rotating assembly relative to the housing, and wherein the limiting assembly is a ferromagnetic member.

5. The electrical device data acquisition system of claim 1, wherein the rotating assembly comprises:

the two ends of the rotating shaft are respectively connected with the two ends of the inner side of the shell in a rotating way;

the sleeve is detachably sleeved on the rotating shaft in a sliding manner, the sleeve can slide along the length direction of the rotating shaft, the sliding position can be locked, a plurality of acquisition devices are uniformly distributed on the outer circumference of the sleeve, the data acquisition end of each acquisition device can pass through the corresponding passing component after being aligned with the corresponding passing component, and the sleeve can slide on the rotating shaft to adjust the alignment position of the corresponding acquisition device and the corresponding passing component in the horizontal direction; and

the telescopic links are a plurality of, and the equipartition is in on the sleeve outer circumference, all can follow the sleeve is radial flexible upward, and acquisition device's data acquisition end is located on the telescopic link free end, data acquisition end is with the help of the telescopic link flexible can pass the subassembly and can carry out data acquisition to power equipment.

6. The electrical device data acquisition system of claim 1, wherein the pass-through assembly comprises:

the two support rods are vertically fixed on the outer wall of the shell and positioned on two sides of the through hole respectively, the length direction of the support rods is along the radial direction of the shell, and the support rods are telescopic;

the two transverse plates are axially arranged along the shell along the length direction, one ends of the two transverse plates are respectively hinged with the upper ends of the two supporting rods, the other ends of the two transverse plates are free ends and face the through hole side, and the free ends of the two transverse plates can mutually abut against and are used for sealing the through hole after abutting against; and

and the two ends of the spring are respectively connected with the supporting rod and the transverse plate, and the spring is used for pulling the transverse plate to rotate towards the side close to the through hole, sealing the through hole by the two transverse plates, enabling the data acquisition end of the acquisition equipment to penetrate through the through hole and overcome the elastic force of the spring to push the transverse plate to rotate and then extend out of the through hole.

7. The power equipment data acquisition system according to claim 1, wherein the vehicle body comprises a frame formed by connecting and combining a plurality of upright posts and a plurality of cross beams, braking travelling wheels are arranged at the bottom end of the frame, the plurality of cross beams are telescopic members, the length or the width of the vehicle body is adjusted by means of the telescopic members, and the conveying mechanism is arranged on the upright posts.

8. The electrical device data acquisition system of claim 4, wherein the limit assembly comprises:

one end of the rotating rod is fixedly arranged on the rotating assembly, the other end of the rotating rod is a free end, and the length direction of the rotating rod is in the radial direction of the rotating assembly;

the first magnetic block is arranged at the free end of the rotating rod and can be magnetically attracted;

the rotary disc is rotatably arranged on the outer end face of the shell, is close to the rotary rod, is coaxially arranged with the shell, and can be limited; and

the second magnetic block is detachably arranged on the rotary table, can limit the rotation of the rotating assembly after being mutually magnetically attracted with the first magnetic block, can rotate along with the rotation of the rotary table, and can attract the first magnetic block and rotate by the rotary rod after rotating the rotary table, the collecting equipment on the rotating assembly can be aligned with the passing assembly at different positions, and the data collecting end can pass through the passing assembly to collect data of the power equipment.

9. The electrical device data acquisition system of claim 7, wherein the cross beam comprises:

the first rod is horizontally positioned, one end of the first rod is fixedly connected with one cross beam, the other end of the first rod is a free end and faces the inner side of the vehicle body, a first blind hole is formed in the free end along the horizontal direction, and a first internal thread is formed in the first blind hole;

the second rod is horizontally positioned, one end of the second rod is fixedly connected with the other adjacent cross beam, the other end of the second rod is a free end and faces the inner side of the vehicle body, a second blind hole is formed in the free end along the horizontal direction, a second internal thread is arranged in the second blind hole, and the rotation direction of the second internal thread is opposite to that of the first internal thread; and

the telescopic cylinder is provided with external threads with opposite screwing directions at two ends, the two ends are respectively in threaded connection with the first internal threads and the second internal threads, and the telescopic cylinder is used for adjusting the distance between the first rod and the second rod or adjusting the length or the width of the vehicle body by screwing.